Abstract
This chapter addresses a selection of current and future challenges facing the passenger car. The development, production, and use of passenger cars is driven by different global trends that are energy-related, economic in nature, subject to raw material availability, and powered by demographic changes. These trends and many other influences result in a range of vehicle and powertrain solutions being required and have impacts on vehicle systems, such as body, chassis, electrics/electronics, and on vehicle embedded functions, such as advanced driver assistance systems (ADAS). Depending on the target markets and overall sales volume of each vehicle manufacturer, different platform strategies and new original equipment manufacturer (OEM) partnering models need to be considered. The consequent application of lightweight engineering needs to be applied in all vehicle systems to meet increasing demands for vehicle safety and comfort features and the strong demand for powertrain electrification (environmentally friendly and affordable) with the resulting use of bigger vehicle batteries.
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Notes
- 1.
Domain describes specific areas of the vehicle, such as the chassis system, powertrain system, body system, etc.
References
Allgemeiner Deutscher Automobil-Club (2016) Zahlen, Fakten, Wissen. Aktuelles aus dem Verkehr, 2019. https://www.adac.de/_mmm/pdf/statistik_zahlen_fakten_wissen_1016_208844.pdf. Online accessed 9 Jan 2020
Altran Deutschland S. A. S. & Co. KG (2016) Complexity managed – a software platform for next generation intelligent vehicles and machines. https://www.altran.com/as-content/uploads/sites/8/2017/05/solution_coherense_brochure_20160608.pdf. Online accessed 9 Jan 2020
Blumenstock K-U (2013) VWs Auto-Baukasten für die Zukunft; 9 2013. https://www.auto-motor-und-sport.de/news/modularer-querbaukasten-vws-auto-baukasten-fuer-die-zukunft/. Online accessed 9 Jan 2020
Bubb H, Großmann H, Konorsa L, Georg R, Pecho W, Plath A, Reichhold J, Stauber R, Teske L, Thomer W, Timm H, Vorberg T, Vögel H-J, Wawzyniak M, Aufbau (2016) Vieweg Handbuch Kraftfahrzeugtechnik. Springer, pp 575–734; book-editor: Pischinger S, Seiffert U. ISBN: 978-3-658-09527-7
Citroen Deutschland (2020) Modulare plattform EMP2; 2020. https://www.citroen.de/technologien/modulare-plattform-emp2.html. Online accessed 9 Jan 2020
EADG (2020) EDAG Engineering GmbH 2020. https://www.edag-engineering.de/. Online accessed 9 Jan 2020
Groupe PSA (2018) CMP: Die neue modulare Multi-Energy-Plattform der Groupe PSA; 10 2018. https://at-media.groupe-psa.com/de-at/cmp-die-neue-modulare-multi-energy-plattform-der-groupe-psa. Online accessed 9 Jan 2020
Helmers E (2015) Die Modellentwicklung in der deutschen Autoindustrie: Gewicht contra Effizienz, 9 2015. https://www.vcd.org/fileadmin/user_upload/Redaktion/Publikationsdatenbank/Auto_Umwelt/Gutachten_Modellentwicklung_deutsche_Autoindustrie_2015.pdf. Online accessed 9 Jan 2020
Hentschel J (2017) Der Baukasten für e-Mobilität. https://www.volkswagenag.com/de/news/stories/2017/02/the-e-mobility-module.html. Online accessed 9 Jan 2020
Jordan M (2014) Das T-Modell der neuen C-Klasse: Intelligenter Leichtbau von Mercedes-Benz; 5. https://blog.mercedes-benz-passion.com/2014/05/das-t-modell-der-neuen-c-klasse-intelligenter-leichtbau-von-mercedes-benz-s205/. Online accessed 9 Jan 2020
Olle W, Vogel D (2017) Die automotive Agenda der Zukunft – Auswirkungen auf die sächsische Zulieferindustrie; 6. https://www.amz-sachsen.de/wp-content/uploads/Roadshow-Juni-2017-rev.pdf. Online accessed 9 Jan 2020
SAE J3016 (2018) Surface vehicle recommended practice – taxonomy and definitions of terms related to driving automation systems for on-road motor vehicles. SAE International, 6 2018. https://saemobilus.sae.org/content/j3016_201806. Online accessed 4 Oct 2019
Schaal S (2019) VW öffnet Elektro-Plattform für die Konkurrenz, 1 2019. https://edison.handelsblatt.com/erleben/vw-oeffnet-elektro-plattform-fuer-die-konkurrenz/23928568.html. Online accessed 9 Jan 2020
Treat JR, Tumbas NS, McDonald ST (1979) TRI-level study of the causes of traffic accidents. Institute for Research in Public Safety Indiana University. https://deepblue.lib.umich.edu/handle/2027.42/64993. Online accessed 9 Jan 2020
World Health Organization (2018) Global status report on road safety 2018: summary. WHO, Geneva. https://www.who.int/violence_injury_prevention/road_safety_status/2018/English-Summary-GSRRS2018.pdf. Online accessed 9 Jan 2020
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Knotz, C. et al. (2021). Challenges of Passenger Cars. In: Hick, H., Küpper, K., Sorger, H. (eds) Systems Engineering for Automotive Powertrain Development. Powertrain. Springer, Cham. https://doi.org/10.1007/978-3-319-99629-5_29
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